Developing New Cathode Materials for Lithium-ion Batteries Using Australian Mineral Resources. This project will bring together expertise in electrochmistry, materials science and structure characterisation to conduct collaborative research with Australian industry partners, Queensland Nickel Technology Pty Ltd and Sons of Gwalia Ltd. The aims of this project will be to investigate a series of cathode materials for use in lithium-ion batteries. The significance of this research is that the tech ....Developing New Cathode Materials for Lithium-ion Batteries Using Australian Mineral Resources. This project will bring together expertise in electrochmistry, materials science and structure characterisation to conduct collaborative research with Australian industry partners, Queensland Nickel Technology Pty Ltd and Sons of Gwalia Ltd. The aims of this project will be to investigate a series of cathode materials for use in lithium-ion batteries. The significance of this research is that the technology for preparing a series of new electrode materials for lithium-ion batteries will be developed by taking advantage of abundant Australian minerals resourecs. The expected outcomes will be to identify several new cathode materials with high energy density, long cycle life, low toxity and low cost.Read moreRead less
Control of Nano-Structure for Enhancing the Performance of Magnesium Diboride Superconductor by Chemical Doping. Superconductor technology will play a significant role in a wide range of industry sectors and environments in the twenty first century. Widespread applications now depend significantly on cost-effective resolution of fundamental materials and fabrication issues. The aim of the proposed program is to bring together international experts from four leading groups to tailor the microstru ....Control of Nano-Structure for Enhancing the Performance of Magnesium Diboride Superconductor by Chemical Doping. Superconductor technology will play a significant role in a wide range of industry sectors and environments in the twenty first century. Widespread applications now depend significantly on cost-effective resolution of fundamental materials and fabrication issues. The aim of the proposed program is to bring together international experts from four leading groups to tailor the microstructure at nanoscale to improve flux pinning and the critical current density of the newly discovered magnesium diboride superconductors through readily available chemical doping. The expected outcome is the capability to produce a new generation of superconductors having high performance at low costRead moreRead less
Composite cathode Materials for Lithium Ion Battery Using Chemical Coating Technique. Commercial Li-ion batteries have LiCoO2 as a cathode material due to its excellent cycle stability and rate capability. However, cobalt is a relatively rare and very expensive transition metal, so attention has been focussed on LiMn2O4 with a view to taking advantage of its low cost and environmentally friendly nature compared to LiCoO2. The aim of this develop new composite cathode materials by using a LCo02. ....Composite cathode Materials for Lithium Ion Battery Using Chemical Coating Technique. Commercial Li-ion batteries have LiCoO2 as a cathode material due to its excellent cycle stability and rate capability. However, cobalt is a relatively rare and very expensive transition metal, so attention has been focussed on LiMn2O4 with a view to taking advantage of its low cost and environmentally friendly nature compared to LiCoO2. The aim of this develop new composite cathode materials by using a LCo02. The aim of this project is to develop new composite cathode materials by using a LCo02 coating on Li-Mn-0 materials. The expected outcome is a new cathode material which has high-energy capacity, long cycle life and low cost.Read moreRead less